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The Paleoproterozoic Mid-Lithuanian Suture Zone represents one of the major structures of the crystalline basement of Lithuania, separati ng the West Lithuanian and the East Lithuanian domains. This zone has shown persistently low tectonic activity during the Phanerozoic. The Mid-Lithuanian Suture Zone is marked by a distinct Middle Lithuanian topographic low underlain by a trough in the sub-Quaternary surface that suggests the morphotectonic nature of this depression. This is supported by high-precision geodetic level l ing data that has unravelled the subsidence trend of the Middle Lithuanian trough. The zone is also distinct in its pattern of topographic lineaments. The persistence of the tectonic activity of the Mid-Lithuanian Suture Zone suggests that it represents a large-scale mechanical boundary of the Earth's crust, resulting in increased accumulation of tectonic strain.
Czasopismo
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Tom
Strony
590--601
Opis fizyczny
Bibliogr. 59 poz., rys., wykr.
Twórcy
autor
- Nature Research Centre, Akademijos 2, LT-08412 Vilnius, Lithuania
autor
- Lithuanian Geological Survey, Konarskio 35, LT-03123 Vilnius, Lithuania
autor
- Vilnius University, Department of Geology and Mineralogy, M.K. Čiurlionio 21/27, LT-03101 Vilnius, Lithuania
autor
- Nature Research Centre, Akademijos 2, LT-08412 Vilnius, Lithuania
Bibliografia
- 1. Ankudinov, S., Sadov, A., Brio, H., 1994. Crustal structure of Baltic Countries on the basis of deep seismic sounding data. Proceedings of the Estonian Academy of Sciences, Geology, 43: 129-136.
- 2. Baltrūnas, V., Šliaupa S., Karmaza, B., 2006. Origin of the Great Nemunas Loops, South Lithuania. Geographie physique et Quaternaire, 59: 3-15.
- 3. Ber, A., Ryka, W., 1998. Influence of the crystalline basement on the sedimentary cover of the eastern part of the Peribaltic Depression, Poland. Prace Państwowego Instytutu Geologicznego, 161: 171-182.
- 4. Ber, A., 2000. Pleistocene of North-Eastern Poland and neighbouring areas against crystalline and sedimentary basement (in Polish with English summary). Prace Państwowego Instytutu Geologicznego, 170.
- 5. Bitinas, A., 1999. Some remarks on distribution and genesis of palaeoincisions in the East Baltic area. Geological Quarterly, 43 (2): 183-188.
- 6. Bitinas, A., Karmaziené, D., Jusiené, A., 2004. Glaciolacustrine kame terraces as an indicator of conditions of deglaciation in Lithuania during the Last Glaciation. Sedimentary Geology, 165: 285-294.
- 7. Bogatikov, O.A., Birkis, A.P., 1973. Magmatic activity of Precambrian of west Latvia (in Russian). Nauka, Moscow.
- 8. Bogdanova, S, Gorbatchev, R., Grad, M, Guterch, A., Janik, T., Kozlovskaja, E., Motuza, G., Skridlaite, G., Starostenko, V., Taran, L,, EUROBRIDGE AND POLONAISE Working Groups., 2006. EUROBRIDGE: new insight into the geodynamic evolution of the East European Craton. Geological Society Memoirs, 32: 599-625.
- 9. Czuba, W., Grad, M., Luosto, U., Motuza, G., Nasedkin, V., Polonaise P5 Working Group, 2002. Upper crustal seismic structure of the Mazury complex and Mazowsze massif within the East European Craton in NE Poland. Tectonophysics, 360: 115-128.
- 10. Čyžiené, J., Satkūnas, J., 2008. Morphotectonic of Quaternary landforms, examples from Baltic region. 3rd conference of the FP 7 project “ Morphotectonic Map of European Lowland Area” (MELA): Cartographical Approach of the Morphotectonic of European Lowland Area, May 18-21, Międzyzdroje, Poland. Abstracts volume: 20-23.
- 11. De Rydt, J., Gudmundsson, G.H., Corr, H.F.J., Christoffersen, P., 2012. Surface undulations of Antarctic ice streams tightly controlled by bedrock topography. The Cryosphere, 6: 4485-4516.
- 12. Dühnforth, M., Anderson, R.S., Ward, D., Stock, G.M., 2010. Bedrock fracture control of glacial erosion processes and rates. Geology, 38: 423-426.
- 13. Durand, G., Gagliardini, O., Favier, L., Zwinger, T., le Meur, E., 2011. Impact of bedrock description on modeling ice sheet dynamics. Geophysical Research Letters, 38: L20501.
- 14. Dzierżek, J., 1997. Geology of sub-Quaternary basement and stratigraphy of Quaternary sediments in the Middle Noteć River valley. Annales Societatis Geologorum Poloniae, 67: 57-81.
- 15. Dzierżek, J. 2009. Palaeogeography of selected areas of Poland during the last glaciation. Acta Geographica Lodziensia, 95: 1-112.
- 16. EUROBRIDGE'95 Seismic Working Group, Yliniemi, J., 2001. EUROBRIDGE'95 Deep Seismic Profiling within the East European Craton. Tectonophysics. 339: 153-175.
- 17. Giese, R., 1998. Eine zweidimensionale Interpretation der Geschwindigkeitenstruktur der Erdkruste des sudwestlichen Teils der osteuropäischen Platform (Proj ect EUROBRIDGE). Scientific Technical Report STR98/16, Potsdam: 190.
- 18. Grad, M., Jensen, S.L., Keller, G.R., Guterch, A., Thybo, H., Janik, T., Tiira, T., Iliniemi, J., Luosto, U., Motuza, G., Nasedkin, V., Czuba, W., Gaczyński, E., Środa, P., Miller, K.C., Wilde-Piórko, M., Komminaho, K., Jacyna, J., Korabliova, L., 2003. Crustal structure of the Trans-European Suture Zone region along POLONAISE'97 Seismic Profile P4. Journal of Geophisical Research, 108 (B11): 2541.
- 19. Gregersen, S., Leth, J., Lind, G., Lykke-Anderssen, H., 1996. Earthquake activity and its relationship with geologically recent motion in Denmark. Tectonophysics, 257: 265-273.
- 20. Guobyté, R., Satkūnas, J., 2011. Pleistocene glaciations in Lithuania. In: Quaternary Glaciations - Extent and Chronology: A Closer Look: 231-246. Elsevier, Amsterdam.
- 21. Iverson, N.R., 2012. A theory of glacial quarrying for landscape evolution models. Geology, 40: 679-682.
- 22. Jakobsen, P.R., Pedersen, S.A., 2009. Fracture valleys in central Jylland - a neotectonic feature. Geological Survey of Denmark and Greenland Bulletin, 17: 33-36.
- 23. Karnkowski, P., 2008. Tectonic subdivision of Poland: Polish Lowlands (in Polísh with English summary). Przegląd Geologiczny, 56: 895-903.
- 24. Karukäpp, R., 1996. Baer-Babinet law in glacial dynamics. Proceedings of the Estonian Academy of Sciences, Geology, 45: 216-224.
- 25. Karukäpp, R., 2004. Late-Glacial ice streams of the southeastern sector of the Scandinavian Ice Sheet and the asymmetry of its landforms. Baltica, 17: 41-48.
- 26. Kondratiené, O., Šinkūnas, P., Gaigalas, A., Satkunas, J. 1993. Stratotypes of Quaternary of Lithuania. In: Catalogue of Quaternary Stratotypes of the Baltic Region (ed. O. Kondratiené): 7-30. Institute of Geology,Vilnius.
- 27. Krabbendam, M., Glasser, N., 2011. Glacial erosion and bedrock properties in NW Scotland: abrasion and plucking, hardness and joint spacing. Geomorphology, 130: 374-383.
- 28. Krotova-Putintseva, A.Y., Verbitskiy, V.R., 2012. Preglacial geomorphology of the northern Baltic Lowland and the Valdai Hills, north-western Russia. Bulletin of the Geological Society of Finland, 84: 58-68.
- 29. Kuivamäki, A., 2000. Lineament database of the Finnish. Potential repository sites for the calculation of bedrock movements induced by earthquakes. Working Report 2000-12. POSIVA OY.
- 30. Kuivamäki, A., 2007. Regional Lineament Analysis of the Southern Satakunta Area. Working Report 2007-04. POSIVA OY.
- 31. Kurzawa, M., 2002. Traces of vertical tectonic movements recorded in Pleistocene sediments in NW-Poland. Zeitschrift fur Geologische Wissenschaften, 29: 75-82.
- 32. Kurzawa, M., 2003. The sedimentary record and rates of Quatornary vertical tectonic movements in NW Poland. Quaternary International, 101-102: 137-148.
- 33. Linnemann, U., Romer, R.L., Pin, C., Aleksandrowski, P., Buła, Z., Geisler, T., Kachlik, V., Krzemińska, E., Mazur, S., Motuza, G., Murphy, J.B., Nance, R.D., Pisarevsky, S.A., Schulz, B., Ulrich, J., Wiszniewska, J., Żaba, J., Zeh, A., 2008. Precambrian. The Geology of Central Europe, 1 (Precambrian and Palaeozoic): 21-101. Geological Society, London.
- 34. Liszkowski, J., 1993. The effects of Pleistocene ice-sheet loading-deloading cycles on the bedrock structure of Poland. Folia Quaternaria, 64: 7-23.
- 35. Morawski, W., 2009. Neotectonics induced by ice-sheet advances in NE Poland. Geologos, 15: 199-217.
- 36. Motuza, G., 2005. Structure and formation of the crystalline crust in Lithuania. Polskie Towarzystwo Mineralogiczne - Prace specjalne Mineralogical Society of Poland - Special Papers, 26: 69-79.
- 37. Motuza, G., Motuza, V., 2011. Charnockitic rocks in the crystalline basement of Western Lithuania: implications on their origin and correlation with the Askersund suite in SE Sweden. Geological Quarterly, 55 (1): 63-70.
- 38. Niewiarowski, W., Pasierbski, M., 1999. Influence of bedrock on the Quaternary deposits in the central Krajna Lakeland. Geological Quarterly, 43 (1): 49-60.
- 39. Oakey, G., 1994. A structural fabric defined by topographic lineaments: correlation with Tertiary deformation of Ellesmere and Axel Heiberg Islands, Canadian Arctic. Journal of Geophysical Research, 99 (B10): 20311-20321.
- 40. Paršeliūnas, E.K., Sacher, M., Ihde, J., 2000. Preparation of Lithuanian levelling network data for united European levelling network. Geodezija ir kartografija, 26: 171-186.
- 41. Paškevičius, J. 1997. The Geology of the Baltic Republics. Vilnius University, Geological Survey of Lithuania.
- 42. Rinterknecht, V.R., Bitinas, A., Clark, P.U., Raisbeck, G.N., Yiou, F., Brook, E.J., 2008. Timing of the last deglaciation in Lithuania. Boreas, 37: 426-433.
- 43. Roberts, D., Olsen, O., Karpuz, M.R., 1997. Seismo- and neotectonics in Finnmark, Kola Peninsula and the southern Barents Sea. Part 1: Geological and neotectonic framework. Tectonophysics, 270: 1-13.
- 44. Rychel, J., Woronko, B., Karasiewicz, M.T., Szymczuk, P., Morawski, M., 2015. Ice-sheet dynamics of Warta Glaciation (Saale) in the marginal zone of the Knyszewicze area, northeastern Poland. Studia Quaternaria, 32: 79-91.
- 45. Stirpeika, A., 1999. Tectonic evolution of the Baltic syneclise and local structures in the South Baltic region with respect to their petroleum potential. Geological Survey of Lithuania, Vilnius.
- 46. Stokes, C.R., Clark, C.D., 2002. Are long subglacial bedforms indicative of fast ice flow? Boreas, 31: 239-249.
- 47. Šliaupa, A., 1997. The sub-Quaternary relief of Lithuania and adjacent territories. Litosfera, 1: 46-57.
- 48. Šliaupa, A., 2001. Neotektonicheskaya struktura Litvy i sopredelnoy territorii (in Lithuanian). Geological Survey of Lithuania, Vilnius.
- 49. Šliaupa, A., Bitinas, A., 1986. Tectonic structure and composition of the Quaternary strata depos its in area Vilnius-Trakai-Elektréna (in Russian). In: Research of Glacigenic Formations of Baltic Republics (eds. O. Kondratiené and A. Mikalauskas): 104-113. Department of Geography of Academy of Sciences, Vilnius.
- 50. Šliaupa, A., Šliaupa, S., 2011. Neotectonic studies of Lithuania. Baltica, 24: 117-122.
- 51. Šliaupa, A., Straume, J., Šliaupa, S., 1995a. Peculiarities of neotectonic investigations in Baltic. Technika Poszukiwań Geologicznych, 3: 67-73.
- 52. Šliaupa, A., Repečka, M., Straume, J., 1995b. The Sub-Quaternary relief of the Eastern Baltic sea and adjacent territory. Technika Poszukiwań Geologicznych, 3: 75-78.
- 53. Šliaupa, S., Popov, M., 1998. Linkage between basement and neotectonic linear structures in Lithuania. Litosfera, 2: 36-45.
- 54. Šliaupa, S., Baliukevičius, A., Dénas, Ţ., Šliaupiené, R., 2012. Reflection of the Palaeoproterozoic Mid-Lithuanian Suture Zone in the overlying sedimentary cover. Geologija, 54: 53-73.
- 55. Thorson, R.M., 2000. Glacial tectonics: a deeper perspective. Quaternary Science Reviews, 19: 1391-1398.
- 56. Vetrennikov, V.V. 1991. Zhelezisto-silikatnyye formatsii Prekambriya Latvii i poiskovyye prognozy (in Russian). Zanitne, Riga.
- 57. Wiszniewska, J., Krzeminska, E., Skridlaité, G., Motuza, G., Williams, I., Whitehouse, M., 2005. Metasedimentary and metavolcanic rocks from NE Poland and Lithuania: implications for Precambrian crustal evolution. 12th Meeting of the Petrology Group of the Mineralogical Society of Poland, Stary Folwark, October 13-16, 2005: Crystalline Rocks of the East-European Craton: [scientific communications]: 104-108.
- 58. Wiszniewska, J., Kusiak, M.A., Krzemińska, E., Dörr, W., Suzuki, K. 2007. Mesoproterozoic AMCG granitoids in the Mazury complex, NE Poland - a geochronological update. AM Monograph, 1: 31-39.
- 59. Zakarevičius, A., Šliaupa, S., Anikéniené, A., Dénas, Ţ., Šliaupiené, R., 2008. A model of recent vertical movements of the Earth's surface in Lithuania: integration of geodetic levelling data and geological parameters. Geologija, 50: 254-263.
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).
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Bibliografia
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bwmeta1.element.baztech-505a854a-7792-4ab7-9052-789fb2f66df5